Observation of lymphatics with Indocyanin Green
Transcription
Observation of lymphatics with Indocyanin Green
Observation of lymphatics with Indocyanin Green – Do we need new anatomy books? J. P. Belgrado, L. Vandermeeren, S. Vankerckhove, J. B. Valsamis Université Libre de Bruxelles, Faculté des Science de la Motricité, Unité de Recherche en Lymphologie, CHU St. Pierre, Clinique de Lymphologie de Bruxelles Introduction The quest of imaging the superficial lymphatic network with the help of contrasting products started already more than 200 years ago. Because of the physiological specificity, the limpidness and the smallness of lymphatic vessels, researchers have always had a difficult task in the search of a specific tracer, which could be sensitive and specific enough for lymphatics, minimal invasive, affordable and suitable for in vivo examinations. Fig. 1: Indocyanine Green Imaging of lymphatics. 1 Observation of lymphatics with Indocyanin Green Indocyanine Green (ICG), a well-known fluorescent dye, already used in angiology, cardiology and hepatology, and recently in lymphology, completes in an original manner the arsenal of imaging tools to study lymphedema and the superficial lymphatic system in human. Macroscopic anatomy description of the superficial lymphatic collector’s architecture has to be revisited in lymphede matous conditions. Visualize the superficial lymphatic network architecture A specific camera equipped with infrared diodes and adapted filters makes possible to visualize the superficial lymphatic network architecture and the lymph propagation in real time. a b Fig. 2: a) Initial lymphatic network is not visible, it drains normally into functional lymphatic collectors which are visible. b) The lymph moves towards the initial lymphatics enlarging the vessels and making them visible. (Adapted illustrations from Prof. E. Földi, D-Hinterzarten, by courtesy) 2 Observation of lymphatics with Indocyanin Green We report our experience based on 526 lympho fluoroscopies, realized during the evaluation of primary and secondary lymphedema and experiences on healthy subjects. After intradermal injection of a small volume of highly diluted ICG (0.2 ml) the dye binds with albumine and the local lipoproteins (LP). Those proteins and fluid localized in the interstitium (the place the edema is situated) reach the circulation by the lymphatics. Dynamic images of the lymphatics During the exam, the camera that emits infrared light excites the couple IGCLP. In these conditions, ICG-LP, diluted into the water of the lymph, starts to be fluorescent. Then the lymphatic network is revealed to the camera. The signal is filtered and amplified and shows dynamic images of the lymphatics on a screen. Fig. 3: Examination of the dorsum of the hand of breast cancer related lymphedema (BCRL). Fig. 4: Superficial lymphatics on the dorsum of the hand (illustration by Sappey). 3 Observation of lymphatics with Indocyanin Green Fig. 5: Substitution pathways shown by the fluoroscopy. Those pathways can be drawn on the patient’s skin during the exam. 4 Observation of lymphatics with Indocyanin Green Fig. 6: Superficial lymphatic observed and video recorded applying various MLD techniques. The lymphatic is located between two reference points (d=50mm). Fig. 7: NIR fluoroscopy to improve the knowledge about intermittent compression therapy related to lymphatic system and develop new concepts. 5 Observation of lymphatics with Indocyanin Green Immediately after the injection, the lymphatic starting from the injected area became visible, the lymphangion pumping also, then progressively the entire superficial lymphatic network connected with the injected area and their superficial lymphnodes become visible. The whole topography of the superficial lymphatic network linked to the injected anatomical region, appears like a dynamic route map that given valuable information to understand the personal situation of each individual, then customized the therapeutic choice. Functional vessels appear like a straight line Anatomical regions which are involved in an edema and where the lymph col lectors are not functioning are clearly highlighted: the rerouting of the lymph that flow through the initial lymphatic appears like a very dense, tortuous and small vessel network. On contrary, functional vessels appear like straight line, the efficiency of valves could be tested and contractility of the lymphangion is perfectly visible. Thanks to dedicated software we measure the mean velocity of the lymph flow into the lymph collectors. When the normal lymphatic ways don’t work, the fluid and macromolecule are redirected into other functional territories to be drained. This specificity is also visible during the exam, and it gives information to the therapist how to change the direction of the manual drainage. On figure 3 (examination of a breast cancer related lymphedema (BCRL)) is shown that fluid of the dorsum of the hand reaches the palm and not as normally the dorsum of the wrist. Beyond the functional information, the fluoroscopy shows the substitution pathways. Those pathways can be drawn on the patient’s skin during the exam in order to customize the MLD treatment protocol (Fig. 5). Unexpected functional lymphnodes and particular reflux could be identified. Optimize the manual lymphatic drainage techniques Near infrared (NIR) fluoroscopy helps us also to optimize the manual lymphatic drainage techniques: using a double camera, one in the visible field and the second in fluorescence. We could observe in real time the efficiency of each manoeuver (Fig. 6). 6 Observation of lymphatics with Indocyanin Green The same could be done to study intermittent compression therapy: we performed studies with customized transparent sleeves for example to evaluate the lymph flow under the sleeves (Fig. 7). We observe and record on video the tracer’s progression during drainage maneuvers. It is possible with this technique to observe the effect of diverse physical treatments such as different manual lymphatic drainage methods, intermittent compression therapy, multicomponent bandages or the wear of sleeves. Evaluate the occlusion pressure of superficial lymphatic collectors More recently, fluoroscopy helped us to evaluate the occlusion pressure of superficial lymphatic collectors of the upper and lower limb. The range of the occlusion pressure reaches values much higher than described in literature. Because of those findings we should bear in mind that we’ll to review certain chapters about intra-lymphatic pressure and collapsible properties of lymphatics. The major advantage of ICG lymphofluoroscopy technique is the possibility to observe in real-time fluid movements from the interstitial space to the lymphatics, lymph propagation velocity, contraction rate, kinesiology of the lymphangions, mapping of substitution pathways and detection of subclinical lymph oedema and “ectopic” lymph nodes in lymphoedema. Protect as more is possible lymphatics vessels during surgery. Correspondance address Jean-Paul Belgrado Université Libre de Bruxelles Campus Erasme CP 640 Faculté des sciences de la motricité Unité de Recherche en Lymphologie 808 Route de Lennik B-1070 Bruxelles Belgium E-Mail: [email protected] © Viavital Verlag GmbH, Köln 2015, Belfortstraße 9, 50668 Köln www.der-niedergelassene-arzt.de 7
Similar documents
Lymphedema, Role of truncal clearance as a therapy
of fluid containing a high protein concentration in tissues. Primary lymphedema arises from genetic disorders that may cause congenital lymphedema manifest at birth or by 2 years of age (Ersek, Dan...
More informationUntitled - Drenagem Linfática
there is also the insufficient associated the proteolyse lymlymphatic of the protein from the cellular instertice. The opinion of Foldi about the lymphatic insufficiency dynamic, comparing to the ...
More information